Non-biological 3D printed simulator for training in percutaneous nephro- lithotripsy
Аляев Ю. Г., Сирота Е. С., Безруков Е. А., Али С. К., Букатов М. Д., Летюновскиy А. В., Бядретдинов И. С.
Опубликовано: 2018
Тип ресурса: Статья
DOI:10.18565/urology.2018.1.10-14
Аннотация:
AIM: To develop a non-biological 3D printed simulator for training and preoperative planning in percutaneous nephrolithotripsy (PCNL), which allows doctors to master and perform all stages of the operation under ultrasound and fluoroscopy guidance.MATERIALS AND METHODS: The 3D model was constructed using multislice spiral computed tomography (MSCT) images of a patient with staghorn urolithiasis. The MSCT data were processed and used to print the model. The simulator consisted of two parts: a non-biological 3D printed soft model of a kidney with reproduced intra-renal vascular and collecting systems and a printed 3D model of a human body. Using this 3D printed simulator, PCNL was performed in the interventional radiology operating room under ultrasound and fluoroscopy guidance.RESULTS: The designed 3D printed model of the kidney completely reproduces the individual features of the intra-renal structures of the particular patient. During the training, all the main stages of PCNL were per
Ключевые слова:
3D printing; non-biological simulator; percutaneous nephrolithotripsy; urolithiasis
anatomic model; education; human; lithotripsy; medical education; percutaneous nephrostomy; procedures; three dimensional printing; urolithiasis; Education, Medical, Continuing; Humans; Lithotripsy; Models, Anatomic; Nephrostomy, Percutaneous; Printing, Three-Dimensional; Urolithiasis
Язык текста: Русский
ISSN: 1728-2985
Аляев Ю. Г. Юрий Геннадьевич 1942-
Сирота Е. С. Евгений Сергеевич 1974-
Безруков Е. А. Евгений Алексеевич 1975-
Али С. К.
Букатов М. Д.
Летюновскиy А. В.
Бядретдинов И. С.
Alyaev Yu. G. Yurij Gennadyevich 1942-
Sirota E. S. Evgenij Sergeevich 1974-
Bezrukov E. A. Evgenij Alekseevich 1975-
Ali S. K.
Bukatov M. D.
Letunovskiy A. V.
Byadretdinov I. S.
Non-biological 3D printed simulator for training in percutaneous nephro- lithotripsy
Текст визуальный непосредственный
Урология
Бионика Медиа
Вып. 1 С. 10-14
2018
Статья
3D printing non-biological simulator percutaneous nephrolithotripsy urolithiasis
anatomic model education human lithotripsy medical education percutaneous nephrostomy procedures three dimensional printing urolithiasis Education, Medical, Continuing Humans Lithotripsy Models, Anatomic Nephrostomy, Percutaneous Printing, Three-Dimensional Urolithiasis
AIM: To develop a non-biological 3D printed simulator for training and preoperative planning in percutaneous nephrolithotripsy (PCNL), which allows doctors to master and perform all stages of the operation under ultrasound and fluoroscopy guidance.MATERIALS AND METHODS: The 3D model was constructed using multislice spiral computed tomography (MSCT) images of a patient with staghorn urolithiasis. The MSCT data were processed and used to print the model. The simulator consisted of two parts: a non-biological 3D printed soft model of a kidney with reproduced intra-renal vascular and collecting systems and a printed 3D model of a human body. Using this 3D printed simulator, PCNL was performed in the interventional radiology operating room under ultrasound and fluoroscopy guidance.RESULTS: The designed 3D printed model of the kidney completely reproduces the individual features of the intra-renal structures of the particular patient. During the training, all the main stages of PCNL were per